DE2843013A1 - Sand blasting hose with nozzle - has long gradually reducing cross=section leading to nozzle end - Google Patents

Abstract

The sand blasting tool comprises a nozzle at the end of a flexible hose. The nozzle comprises a first portion with reducing cross-section which may lead to a throttle point and a second portion with increasing cross-section. The first portion extends over considerable length and converges gradually. The length of this portion may be between 500 and 1000mm. At least part of this portion is contained within the hose. The first portion and the throttle may be entirely contained within the hose. At least part of the second portion may be formed by gradually increasing wall thickness of the hose.

Description

Blasting device for compressed air blasting

The invention relates to a blasting device for compressed air blasting, with a blasting and suspension hose and with a blasting hose at the end and suspension hose connected jet nozzle, wherein the jet nozzle has a constriction area, possibly has a throttle point and possibly an expansion area.

When using compressed air blasting, which was formerly also known as sandblasting was and is now sometimes referred to as free jets, is a regular Blasting media with the help of a suspension element from a blasting nozzle against one to be treated surface blown, with a relatively high exit speed, which can be well over XOO mXs are blasting devices for compressed air blasting Known (from practice) in various embodiments, in which in general Blasting media and suspension media through a single blasting and suspension hose be fed to the jet nozzle. The speed of blasting and suspension media lies within the often comparatively long blasting and suspension hose generally relatively low, so that without a jet nozzle through which the exit velocity of blasting and suspension media is significantly increased, the blasting media on the to be treated Surface would not show the necessary abrasive effect.

In the known blasting devices, different nozzle shapes are used for the jet nozzle is used. In addition to simple jet nozzles that only have one in an outlet opening have ending, short narrowing area, jet nozzles are more venturi-like Training in which a particularly uniform flow of beam and suspension means is guaranteed, and also jet nozzles, which are designed in the manner of a Laval nozzle are and in which there is a throttle point and at a short narrowing area connect a long extension area. Laval nozzles find, however only used where speeds of the suspension element are at the end of the narrowing area or are to be expected at the throttle point at the level of the speed of sound.

Due to the inertia of the abrasive - mostly fine-grain sand - Compared to the suspension element - mostly compressed air - already result in the blasting and Suspension hose, but even more so in the jet nozzle, very different speeds and speed distributions of jet and suspension means. Indeed it is it in the known blasting devices in such a way that the suspension element, although at a very high speed, possibly even at supersonic speed, but the blasting abrasive at a much lower speed Speed exits from the jet nozzle. To determine the exit speed of the Increasing blasting media is therefore the one described at the outset in a blasting device Kind has already been proposed the patent application P 27 06 525.4-14), the Blasting media immediately after exiting the blasting nozzle or a first blasting nozzle, to accelerate with the help of additional air at high speed. This way of construction is quite effective in terms of the exit speed of the abrasive, technically, however, comparatively complex.

The invention is based on the prior art set out above now the task is based on the known blasting devices described above Art to be designed and developed in such a way that the exit speed of the blasting agent on the one hand absolute, on the other hand relative to the exit speed of the suspension element is much higher than with the known blasting devices.

The blasting device according to the invention, in which the above-mentioned task is solved, is initially characterized in that the narrowing area is elongated and is made substantially uniformly converging. The invention lies this is based on the following relationship recognized according to the invention: Take a look from the design of the jet nozzle as a Laval nozzle, the acceleration takes place of blasting and suspension media only within the constriction area. The narrowing area forms the effective acceleration distance for blasting and suspension equipment.

In the jet nozzles known up to now, the narrowing area was comparative in short, only had one for jet nozzles with a total length of 200 to 250 mm Length of about 50 mm. In the occurring along the acceleration path mean acceleration of the suspension element was extraordinarily high, you could not or only insufficiently to follow the abrasive due to the inertia, According to the invention it has now been recognized that by stretching the effective acceleration distance, thus an extension of the narrowing area, the mean acceleration of the Suspension means can be drastically reduced, so that the blasting media is significant can be accelerated better. So this is not just the absolute exit speed of the abrasive increases, but also the relation between the exit speed of the blasting medium and the exit speed of the suspension medium are significantly improved. It has been found to be particularly useful if the length of the narrowing area is between 500 and 1,000 mm.

In the case of the longitudinal expansion of the narrowing area to be aimed for according to the invention the problem occurs that the blasting nozzle and thus the entire blasting device is extraordinary becomes long and heavy and therefore unwieldy. Another teaching of the invention, the of particular importance is therefore that at least the narrowing area the jet nozzle at least partially within the jet and suspension hose is realized. This can easily go so far that the narrowing area and, if necessary, the throttle point completely within the blasting and suspension hose are realized. As a result, even if the narrowing area is of considerable length excellent handiness of the blasting device, d. H. especially the jet nozzle guaranteed.

When realizing at least a part of the jet nozzle inside of the blasting and suspension hose, it is useful if the blasting and suspension hose to form at least part of the narrowing area of the jet nozzle at the end has a uniformly increasing wall thickness. In this way will the constriction area or at least a part of the constriction area of the jet nozzle to a certain extent integrated into the blasting and suspension hose, so that on the one hand a uniform narrowing of the effective cross-section of the blasting and suspension hose and on the other hand, a high degree of flexibility is guaranteed. It goes without saying it is also possible to use the blasting hose and suspension hose with the same wall thickness Pull in evenly radially towards the end. In any case it is advantageous when the end of the blasting hose and suspension hose is designed as a throttle point is.

Because of the abrasive effect of the abrasive, especially when it is raised Speeds, it may be advantageous if the inside of the jet and Support hose at least in the area of the design as a jet nozzle a reinforcement, in particular made of plastic, fiberglass material or the like.

As an alternative to the integrated design of the jet nozzle set out above At the end of the blasting and suspension hose it is also possible that the blasting and suspension hose for forming at least part of the constriction area the end of the jet nozzle with an insert, in particular plastic, glass fiber material, Metal or the like. Is provided. The use of a separate insert has the Advantage that the length of the narrowing area of the jet nozzle can also be added later can still be changed. In addition, in this case, in the case of the invention Blasting device readily known, not specially designed blasting and suspension hoses be used.

According to a further teaching of the invention, which is of particular importance, the jet nozzle is designed in two parts and is one part of the jet nozzle with at least part of the constriction area within the blasting and suspension hose and the other Part of the jet nozzle, possibly within a jet housing, arranged outside the blasting and suspension hose. In coordination with the Expected speeds of the blasting agent in the throttle point or on For example, the front part of the which is not so heavily used can exit Constriction area be integrated into the blasting and suspension hose, while the rear part of the narrowing area and possibly other areas of the jet nozzle made of more resistant and possibly also heavier material separated outside the Blasting and suspension hose are provided. That outside of the ray and The support hose, if necessary, can also be provided for the jet housing serve to supply additional air for post-acceleration of the blasting agent, insofar as this should be necessary or appropriate. It is in terms of handling advantageous if the two parts of the jet nozzle are detachably connected to one another.

Finally, it is with the last-mentioned embodiment of the invention The blasting device is particularly useful when the first part of the blasting nozzle covers the constriction area and, if necessary, the throttle point and the second part of the jet nozzle the expansion area includes. Are the first and the second part of the jet nozzle in this embodiment can be separated from each other, so the jet nozzle is adapted to the expected support means speeds optionally designed as a normal, venturi or Laval nozzle, depending on the whether a second part of the jet nozzle is attached or not.

In the following the invention is based on a mere exemplary embodiment the drawing illustrating the blasting device according to the invention explained in more detail; it Fig. 1 shows a first exemplary embodiment of a blasting device according to the invention and Fig. 2 shows a second embodiment of an inventive Blasting device.

The blasting device 1 shown in FIGS. 1 and 2 for compressed air blasting initially generally has a blasting and suspension hose 2 and one at the end blasting nozzle 3 connected to the blasting and suspension hose 2 in the exemplary embodiment According to Fig. 1, the jet nozzle 3 has only one narrowing area 4, while in Exemplary embodiment according to FIG. 2, the jet nozzle 3 has a narrowing region 4, a Has throttle point 5 and an expansion area 6.

It is clear from the figures that the narrowing area 4 is elongated and is made substantially uniformly converging. The length of the narrowing area 4 is advantageously between 500 and 1,000 mm.

As shown in Fig. 1, the narrowing area 4 is completely inside of the blasting and suspension hose 2 realized. In the embodiment of the blasting device 1 according to the invention according to FIG. 2 are even the narrowing area 4 and the throttle point 5 completely within the blasting and suspension hose 2 realized.

Fig. 1 shows a particular embodiment of the invention Blasting device 1, as the blasting and suspension hose 2 to form the constriction area 4 of the jet nozzle 3 has an evenly increasing wall thickness at the end. Included is the blasting and suspension hose 2 at the end as a type of throttle point 5 educated. Furthermore, it is clear from Fig. 1 that the inside of the beam and support hose 2 in the area of the design as a jet nozzle 3 a reinforcement a has.

The reinforcement 7 can for example be made of plastic, fiberglass material or like. exist.

In the embodiment of the invention shown in FIG Blasting device 1 is the blasting and suspension hose 2 for forming the constriction area 4 and the throttle point 5 of the jet nozzle 3 are provided with an insert 8 at the end. This insert 8 can od in particular made of plastic, fiberglass, metal. like. exist. 2 shows a preferred embodiment of the invention Blasting device 1, as the blasting nozzle 3 is designed in two parts and one part 9 of the jet nozzle 3 with the constriction area 4 and the throttle area 5 within of the blasting and suspension hose 2 is arranged, while the other part 10 the jet nozzle 3 includes the extension area 6 of the jet nozzle 3 and outside of the blasting and suspension hose 2 is arranged. From Fig. 2 it also follows that that the two parts 9, 10 of the jet nozzle 3 are detachably connected to one another. the Formation of the expansion area 6 leads in the exemplary embodiment shown here to the fact that the jet nozzle 3 acts as a Laval nozzle.

Claims (11)

Claims: S blasting device for compressed air blasting, with a Blasting and suspension hose and one end to the blasting and suspension hose connected jet nozzle, the jet nozzle having a narrowing area, possibly a Throttle point and possibly has an expansion area that does not appear to be i c h n e t that the narrowing region (4) is elongated and essentially uniform is carried out converging. 2. Beam device according to claim 1, characterized in that the length of the narrowing area (4) is between 500 and 1000 mm. 3. Blasting device according to claim 1 or 2, characterized in that at least the constriction area (4) of the jet nozzle (3) at least partially inside of the blasting and suspension hose (2) is realized. 4. StrahlgerXt according to claim 3, characterized in that the constriction area (4) and, if applicable, the throttle point (5) completely within the blasting and suspension hose (2) are realized. 5. beam device according to claim 3 or 4, characterized in that the blasting and suspension hose (2) for forming at least part of the constriction area (4) of the jet nozzle (3) has an evenly increasing wall thickness at the end. 6. beam device according to claim 5, characterized in that the beam and the suspension hose (2) is designed as a throttle point (5) at the end. 7. beam device according to claim 5 or 6, characterized in that the inside of the blasting and suspension hose (2) at least in the area of the Training as a jet nozzle (3) a reinforcement (7), in particular made of plastic, fiberglass material or the like having. 8. beam device according to claim 3 or 4, characterized in that the blasting and suspension hose (2) for forming at least part of the constriction area (4) the jet nozzle (3) at the end with an insert (8), in particular made of plastic, Glass fiber material, metal or the like. Is provided. 9. Blasting device according to one of claims 3 to 8, characterized in that that the jet nozzle (3) is made in two parts and one part (9) of the jet nozzle (3) with at least part of the constriction area (4) within the beam and Suspension hose (2) and the other part (10) of the jet nozzle (3), if necessary within a blasting housing (11), arranged outside the blasting and suspension hose (2) is. 10. Blasting device according to claim 9, characterized in that the two Parts (9, 10) of the jet nozzle (3) are detachably connected to one another. 11. Beam device according to claim 9 or 10, characterized in that the first part (9) of the jet nozzle (3) the constriction area (4) and possibly the throttle point (5) and the second part (10) of the jet nozzle (3) comprises the extension area (6).